JP3894073B2 - Soil purification method by trench method - Google Patents

Description

【００２７】
〔実施例３〕
図４に示す第２注水トレンチを設けた土壌浄化システムにおいて、洗浄水に表２に示す圧力と周期の脈動を与えて土壌中の汚染域を洗浄した。この結果を表２に示した。なお、比較のため第２注水トレンチを設けない例を対比して示した。本実施例は第２注水トレンチを設けない例よりも注水量は少ないがクロム濃度低減率はほぼ同等であり、注水量を増加せずに洗浄効果を向上できることが確認された。
【００２８】
【表２】

【００２９】
【発明の効果】
本発明の土壌浄化方法では、注水トレンチの壁面から洗浄水が放水されるので放水面が広く、汚染域に対して洗浄水を均一に流すことができる。さらに、洗浄水に脈動を与えて放水するので汚染域の洗浄効果が優れる。また、放水面が広いので脈動を与える効果が大きい。因みに、従来の処理方法における注水井戸では加圧水が放水されるが、これに脈動を与えても個々の通液孔から放水されるために脈動による効果が殆どない。注水井戸を多数設けても同様である。一方、本発明では洗浄水を壁面から放水するので洗浄水の脈動による効果が大きく、汚染域の洗浄効果を高めることができる。土壌粒子表面に付着している汚染物は洗浄水に接触して洗い流されるが、土壌を構成している粘土鉱物の内側に存在している汚染物は洗浄水の流速を高めるだけでは十分に除去することができない。洗浄水を加圧脈動して粘土鉱物の内側と外側の圧力差を大きくすることによって内側の汚染物が外側に引き出され、洗浄効果が大幅に向上する。
【００３０】
さらに、注水トレンチの上部に還元水生成層を形成し、還元性の洗浄水を下部透水層から土壌中に放水することによって、土壌中の汚染物質である六価クロムなどが還元されて安定化される。また、水位測定孔を設け、測定水位に基づいて注水量ないし揚水量を制御することによって土壌中の汚染域を流れる洗浄水の水位を適正に保ち、洗浄効果が向上する。さらに、注水トレンチの下側に、上向きに加圧水を放水する管路を水平方向に設けることによって、汚染物質の下方への拡散が抑止され、施工域について信頼性の高い浄化効果が達成される。また、注水トレンチの側方に注水トレンチと異なる向きに第２注水トレンチを設け、両トレンチから放水される洗浄水の脈動を干渉させて脈動を増幅させれば、全体の注水量を増加せずに洗浄効果が向上する。
【図面の簡単な説明】
【図１】注水トレンチおよび揚水トレンチなどの配置を示す模式平面図
【図２】図１に示す浄化構造の模式縦断面図
【図３】注水トレンチ下側に加圧水供給管路を設けた配置を示す模式縦断面図
【図４】注水トレンチに対して第２注水トレンチを設けた構成例を示す模式平面図。
【符号の説明】
１０−遮水壁、１１−注水トレンチ、１２−揚水トレンチ、１３−透水層、１４−還元水生成層、１５−揚水ポンプ、１６−注水管路、１７−注水バルブ、１８−揚水管路、２０−難透水層、３１、３２−水位測定孔、３３−水位コントロールユニット、３４−加圧水放水管路、４０−第２注水トレンチ。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a soil purification method using a trench method. More specifically, soil purification that cleans the contaminated area effectively and without leaving untreated parts by constructing a trench in the soil to be purified and flowing wash water through the soil while pulsating through the wall of the trench. Regarding the method.
[0002]
[Prior art]
Conventionally, various treatment methods are known as methods for purifying contaminated soil. For example, (a) a method of injecting cleaning water into the soil through a drilling hole provided in the contaminated soil, discharging the contaminated soil excavated by this injection pressure to the ground by recirculation of water, and performing a purification treatment (JP 2001- (262), (b) Multiple water injection wells and pumping wells are provided so as to surround the contaminated area, the wash water is poured into the contaminated soil through the water injection well, and the wash water passing through the contaminated area is pumped to the ground by the pumping well. Purification method to return to the soil through the water injection well (JP-A-10-277531), (c) Heat the groundwater pumped up through the pumping well, and send the heated groundwater to the contaminated area through the water injection well Purification method to promote the vaporization of harmful substances in soil (Japanese Patent Laid-Open No. 9-174034), (d) Contaminated groundwater is pumped up through a pumping well provided on the downstream side of the contaminated area, and the purified water on the upstream side Return to the ground through the water injection well In addition, a purification method (JP-A-8-323338) is known in which the purified water flows through the contaminated area to wash the contaminated area and repeat the cycle of pumping up and purifying again.
[0003]
(E) Drilling multiple water wells in the contaminated area, inserting a water jet device into this well, spraying clean water containing emulsifying material into the soil from the water well, and sprinkling the contaminated soil In addition, a method for purifying soil (Patent No. 2750883) is known, and (f) a water blocking wall is provided deeper than the groundwater surface, and a water injection hole and a water pumping hole are excavated in the area surrounded by the water blocking wall. Introducing water from the water injection hole to raise the groundwater level to clean the contaminated area and to generate a groundwater flow from the water injection hole to the pumping hole, pumping the groundwater containing the pollutant from the water pumping hole to remove the pollutant A purification method (Patent No. 31911132) is known in which groundwater is returned to the soil again through a water injection hole later.
[0004]
However, the conventional soil purification methods for washing the contaminated area with water are all treatment methods in which a large number of injection wells or pumping wells are provided in the contaminated area and the purified water is pumped through these wells. A large number of water injection wells and pumping wells are required to allow the washing water to flow through. In addition, since the water injection location is dotted with respect to the contaminated area, it is difficult for the wash water flowing out from the well to spread evenly in the contaminated area even if many wells are provided. However, there is a problem that the time required for the end of cleaning is limited by time in the contaminated area having the lowest flux density.
[0005]
Furthermore, in the method of infiltrating washing water from the ground surface into the soil as described in (e) above, the time for the water to diffuse and penetrate to the contaminated site becomes the rate-determining treatment time, and the pumping well is used to increase the treatment efficiency. If the amount of water pumped up from the ground becomes higher, the groundwater level will have a gradient toward the pumping well, so the wash water flux will be biased toward the pumping well, and unwashed parts will remain at points away from the pumping well. Cause problems. In the above method (f), the washing water flux flows from the individual injection wells to the individual pumping wells, but the direction and flow rate are determined by the positional relationship of the wells and are not uniform. In addition, there is a problem that the cleaning speed is limited by the cleaning speed of the portion having a low flux density.
[0006]
[Problems to be solved by the invention]
The present invention solves the above-mentioned problems of the conventional method in a treatment method of flowing cleaning water into a contaminated area of soil and purifying the soil to be purified while applying pulsation through the wall of the trench. It is an object of the present invention to provide a soil purification method for cleaning a polluted area effectively and without leaving an untreated part by flowing washing water into the soil.
[0007]
[Means for solving the problems]
That is, the present invention is (1) providing a water injection trench and a water pumping trench in the soil, discharging wash water into the soil from the wall surface of the water pouring trench while giving pulsation, and in the contaminated area between the water pouring trench and the water pumping trench. The present invention relates to a soil purification method characterized by flowing wash water, pumping wash water via a contaminated area from a pumping trench, and removing contaminants in the wash water.
[0008]
Specifically, in the soil purification method of the present invention, for example, (2) a water shielding wall surrounding a contaminated area is provided, a water injection trench is provided upstream of the area surrounded by the water shielding wall, and a pumping trench is provided downstream. Each trench is excavated to a depth that reaches the underground water-impermeable layer, and the outer peripheral wall of each trench is formed by a water-impervious wall, while the upper part of the inner wall of the trench is used as a water-impervious wall and the lower part is permeable. It is a soil purification method that is formed by a wall surface, is pulsated, is discharged from the lower permeable inner wall surface of the water injection trench, and the cleaning water that has flowed through the contaminated area is pumped from the pumping trench and purified.
[0009]
The soil purification method according to the present invention includes (3) filling the water-permeable material from the bottom of the water-permeable inner wall surface of the water injection trench to an arbitrary height of the upper water-impervious wall and filling the sand material containing the reducing material on the upper side thereof. An upper reduced water generation layer and a lower permeable layer are formed on the upper surface, and the wash water supplied to the upper reduced water generation layer has a reducing property and flows down to the lower permeable layer, and the reduced wash water is discharged into the soil. (4) A soil purification method in which a water level measurement hole is provided between the water injection trench and the water pumping trench, and the water injection amount or the water supply amount is controlled based on the measured water level, (5) , A soil purification method that lays a pipeline that discharges pressurized water upwards and suppresses the downward diffusion of contaminants. (6) A second water injection trench is provided on the side of the water injection trench in a different direction from the water injection trench. Wash water discharged from both trenches The dynamic causing interference including soil purification method to enhance the cleaning effect by amplifying the pulsations.
[0010]
In the soil purification method of the present invention, since the cleaning water is discharged from the wall surface of the water injection trench, unlike the case of using a conventional water injection well, the water discharging surface is wide and the cleaning water can be flowed uniformly over the contaminated area. . Further, unlike simple pressurized water discharge, the cleaning water is pulsated and discharged, so that the cleaning effect of the contaminated area is excellent. Moreover, since the water discharge surface is wide, the effect of giving pulsation is great. In addition, a reduced water generation layer is formed at the top of the water injection trench, and reducing wash water is discharged into the soil from the lower permeable layer, thereby reducing contaminants such as hexavalent chromium in the soil and making them harmless. Is done. In addition, by providing a water level measurement hole and controlling the amount of water injected or pumped based on the measured water level, the water level of the cleaning water flowing through the contaminated area in the soil can be appropriately maintained, and the cleaning effect can be enhanced. In addition, by providing a horizontal pipe line that discharges pressurized water upward at the lower side of the water injection trench, the downward diffusion of contaminants is suppressed, and the side of the water injection trench has a direction different from that of the water injection trench. The cleaning effect can be enhanced by providing two water injection trenches and amplifying the pulsation by interfering with the pulsation of the cleaning water discharged from both trenches.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the soil purification method of the present invention will be specifically described with reference to the drawings. 1 is a schematic plan view showing the arrangement of a water injection trench and a pumping trench, FIG. 2 is a schematic vertical cross-sectional view thereof, and FIG. 3 is a schematic vertical cross-sectional view showing an arrangement in which a pressurized water supply pipe line is provided below the water injection trench. FIG. 4 is a schematic plan view showing a configuration example in which a second water injection trench is provided with respect to the water injection trench.
[0012]
In the illustrated soil purification system of the present invention, a water shielding wall 10 is provided so as to surround a contaminated area A, a water injection trench 11 is provided on the upstream side of a region surrounded by the water shielding wall 10, and a pumping trench 12 is provided on the downstream side. Is provided. The water injection trench 11 and the pumping trench 12 are formed to be elongated along the impermeable walls 10 on both sides, and are placed opposite to each other across the contaminated area A. Each of the trenches 11 and 12 is excavated to a depth reaching the underground water-impermeable layer 20, and the outer peripheries of the trenches 11 and 12 are surrounded by the water-impervious wall 10. Moreover, the upper part of the inner wall of each trench 11 and 12 is formed of the water-impervious wall 10, and the lower part is formed of the water-permeable wall surface.
[0013]
Specifically, for example, the upper portion of the inner wall of the water injection trench 11 is formed of a water-impervious concrete wall, and the lower portion of the water injection trench 11 is filled with a water-permeable material such as crushed stone or gravel. The material forms the lower wall surface of the inner wall. Further, preferably, a lower permeable layer 13 is formed by filling a water permeable material from the bottom of the water injection trench 11 to an arbitrary height of the upper impermeable wall, and further, a sand material containing a reducing material is filled above the upper water permeable layer 13. A water generation layer 14 is formed. In addition, since the washing water can be prevented from diffusing outside the construction area if the construction place is enclosed by the impermeable wall 10, the cleaning effect of the contaminated area is improved. However, depending on the conditions of the construction place, only a part of the impermeable wall 10 is provided. May or may not be provided.
[0014]
On the other hand, the upper part of the pumping trench 12 is formed by a water-impervious concrete wall or the like, and the lower part of the inner wall is formed by a water-permeable concrete wall having a large number of through holes. A pumping pump 15 is installed at the bottom of the pumping trench 12.
[0015]
The water injection trench 11 and the pumping trench 12 may have a structure sandwiched between steel sheet piles or a structure in which steel pipe piles are connected. Any structure can be used as long as the cleaning water in the trench portion can easily move, the outer peripheral portion is formed by a water-impervious wall surface, and a hole or strainer for passing water can be constructed at a predetermined depth. Mixing of the groundwater in the contaminated area to be cleaned and the surrounding groundwater is suppressed by this outer peripheral impermeable wall. It is preferable to drive the outer impermeable wall up to a hardly water permeable layer (such as a clay layer) or a depth sufficiently deeper than the depth to be cleaned. In addition, the water-impervious wall at the top of the inner wall prevents water leaking upward from the depth at which cleaning is performed, and maintains a water head pressure on the injection side of the cleaning water up to a depth enough to enter the cleaning area in the soil. It is preferable to drive in. By adjusting the height of the water-impervious wall at the upper part of the inner wall, it is possible to control the washing water to flow intensively with respect to the contaminated area.
[0016]
A water injection conduit 16 for cleaning water is connected to the water injection trench 11 and a water injection valve 17 is attached. On the other hand, a pumping pipe 18 is connected to the pumping trench 12 to guide the cleaning water pumped up to a treatment facility (not shown). Into the water injection trench 11, cleaning water that has been given a pulsation by changing the water pressure is introduced through a pipe line 16. The water pressure and cycle of pulsation given to the wash water are set according to the situation of the contaminated area. In general, the water pressure is 0.1 to 0.8 atm, and the pulsation cycle is 1 time / day to several tens of times / day. The purification effect can be enhanced by continuously injecting such pulsation for about 30 to 300 days. If the water pressure is low, the amount of water to be washed is reduced and the soil washing efficiency is significantly reduced. On the other hand, if the water pressure is too high, the pouring wells may come off from the ground and flood the ground surface. Also, if the pulsation cycle is less than once / day, it does not change from the effect of washing with normal groundwater flow. On the other hand, even if the cycle is more than several tens of times / day, the washing effect does not increase for the increase in water injection volume. Only the burden of wastewater treatment will increase.
In order to prevent the pulsation of the cleaning water from being lost, it is preferable to seal the water injection trench 11 with a lid so that the cleaning water is filled so that no gap is formed above the water surface. The washing water given pulsation is supplied to the water injection trench 11 through the pipe line 16, discharged into the soil from the lower permeable inner wall surface, flows through the contaminated area located between the water injection trench 11 and the pumping trench 12, and pump 15. The water is pumped up from the pumping trench 12 to the ground, sent to the processing facility through the pipe 18, and the contaminant contained in the cleaning water is removed by the processing facility.
[0017]
In the water injection trench 11 in which the reduced water generation layer 14 is formed on the upper side of the lower water permeable layer 13, the cleaning water supplied to the water injection trench 11 passes through this layer 14 and is changed to water having a low redox potential. This wash water having reducibility flows down to the lower water permeable layer, and the reducible wash water permeates into the lower part of the water injection trench 11 where water is discharged into the soil and is discharged from the water permeable layer 13 into the soil. Is done. By this reducing washing water, a substance that is stabilized by a reducing action, such as hexavalent chromium, is changed to trivalent chromium and stabilized. The washing water containing trivalent chromium is guided to the ground treatment facility through the pumping trench 12, and the trivalent chromium is separated and removed from the washing water. The reduced water generation layer 14 can be formed by adding a reducing agent (iron powder, copper powder, pyrite powder, etc.) to a portion filled with sand or nonwoven fabric. The amount of iron powder added may be about 5%.
[0018]
Conventionally, a method in which iron powder or an iron compound is mixed with cinnabar or the like, or a colloidal reducing material is added to the excavated soil to stabilize it, a method in which these materials are cast in a soil state, a liquid The method of press-fitting into soil together with is known. These are methods that purify the soil by reducing and decomposing organic compounds and stabilizing heavy metal compounds by adding iron or the like. In these methods, the amount of iron input to the soil is at least several. % Or more is necessary, and depending on the conditions, the iron concentration in the groundwater becomes high, causing problems such as red water. In general, the amount of iron used is set at 0.3 mg / L based on water quality standards, and it is not preferable to use excess iron.
[0019]
In the soil purification method of the present invention, iron powder or an iron compound is not directly poured into the soil, but the cleaning water is brought into contact with a reducing material such as iron powder at the top of the water injection trench to convert a small amount of iron powder into the cleaning water. Dissolve and use the reducing power of this small amount of iron. Incidentally, in the result of the column test, the iron concentration in the wash water is 0.3 mg / L or less. In addition, since the reduced water generation layer above the water injection trench can be easily removed after the purification treatment, there is no excessive outflow of iron to the groundwater, and long-term environmental conservation can be achieved even after construction. Furthermore, since hexavalent chromium in the soil is reduced and effectively removed, the amount of water injection can be reduced. Specifically, for example, by passing wash water that has passed a reduced water generation layer (5% Fe powder + silica sand mixed layer) through a contaminated area with a hexavalent chromium concentration of about 0.5 mg / L, hexavalent The chromium concentration can be reduced to 0.02 mg / L.
[0020]
In the illustrated soil purification system, water level measurement holes 31 and 32 are provided between the water injection trench 11 and the pumping trench 12. One water level measurement hole 31 is provided in the vicinity of the upstream water injection trench 11 so that the gradient of the water level can be measured, and the other water level measurement hole 32 is provided in the vicinity of the downstream pumping trench 12. Yes. A water level measurement center is provided inside the water level measurement holes 31 and 32 and the water injection trench 11 and the pumping trench 12 to monitor the groundwater level.
[0021]
Further, a water level control unit 33 that connects the water level measurement center to the water injection valve 17 and the pumping pump 15 is formed. This control system 33 controls the operation of the water injection valve 17 and the pumping pump 15 based on the information of the water level sensor, keeps the upstream and downstream water levels within the target range, and allows the wash water to flow appropriately in the contaminated area. Automatic control. When the measured value of the water level sensor of the water injection trench 11 or the water level sensor of the upstream water level measurement hole is lower than the predetermined water level, the water injection valve 17 is opened to perform water injection, or the pumping pump 15 is stopped. On the other hand, when the water level is higher than the predetermined level, the water injection valve 17 is closed or the pumping pump 15 is operated. Even when the downstream water level is out of the predetermined range, the water level is kept within the predetermined range by the same operation.
[0022]
FIG. 3 shows a configuration example in which a pipe line 34 for discharging pressurized water is provided under the water injection trench 11 to prevent diffusion of contaminants downward. The pipe 34 is horizontally provided so as to discharge pressurized water upward, and has a number of upward water discharge holes. A plurality of the pipelines 34 may be installed side by side in the horizontal direction. In the example shown in the drawing, the pipe line 34 is disposed in the water permeable layer below the hardly permeable layer 20, and prevents the underground water leaking through the hardly permeable layer 20 from diffusing downward.
[0023]
FIG. 4 is a configuration example in which a second water injection trench 40 is provided on the side of the water injection trench 11 in a direction different from the water injection trench. The second water injection trench 40 is provided along the outer peripheral water shielding wall 10 and has the same structure as the water injection trench 11. In this structure, by making the pulsation interfere so that the pulsation of the cleaning water discharged from the trenches 11 and 40 on both sides is amplified, the cleaning effect can be enhanced without increasing the total water injection amount.
[0024]
【Example】
[Example 1]
In the soil purification system shown in FIG. 1, the contaminated area in the soil was washed by applying pulsation of the pressure and period shown in Table 1 to the washing water. The results are shown in Table 1. Moreover, the result of washing without pulsating the washing water is shown as a comparative example. In this example, the reduction rate of the chromium concentration is 50% for those using no reducing agent (No. 1), 80% to 90% for those using a reducing agent (No. 2 to No. 4), Very expensive. On the other hand, the chromium concentration reduction of the comparative example which does not pulsate the washing water is 10%, which is significantly lower than the example of the present invention.
[0025]
[Example 2]
In the soil purification system provided with the pressurized water discharge pipe 34 shown in FIG. 3, the pulsation of the pressure and period shown in Table 1 was given to the wash water to wash the contaminated area in the soil. The results are shown in Table 1 (No .---). In this embodiment, since the diffusion to the lower side of the contaminated area is prevented, the reduction rate of the chromium concentration is improved to 93%.
[0026]
[Table 1]

[0027]
Example 3
In the soil purification system provided with the second water injection trench shown in FIG. 4, pulsation of the pressure and period shown in Table 2 was given to the wash water to wash the contaminated area in the soil. The results are shown in Table 2. For comparison, an example in which the second water injection trench is not provided is shown in comparison. Although this example has a smaller amount of water injection than the example in which the second water injection trench is not provided, the chromium concentration reduction rate is almost the same, and it has been confirmed that the cleaning effect can be improved without increasing the water injection amount.
[0028]
[Table 2]

[0029]
【The invention's effect】
In the soil purification method of the present invention, since the wash water is discharged from the wall surface of the water injection trench, the water discharge surface is wide and the wash water can be made to flow uniformly over the contaminated area. Furthermore, since the washing water is pulsated and discharged, the cleaning effect of the contaminated area is excellent. Moreover, since the water discharge surface is wide, the effect of giving pulsation is great. Incidentally, pressurized water is discharged in the water injection well in the conventional treatment method, but even if pulsation is given thereto, there is almost no effect due to pulsation because water is discharged from each liquid passage hole. The same is true for many water injection wells. On the other hand, in the present invention, since the cleaning water is discharged from the wall surface, the effect of cleaning water pulsation is great, and the cleaning effect of the contaminated area can be enhanced. Contaminants adhering to the surface of the soil particles are washed away by contact with the wash water, but the contaminants present inside the clay mineral that constitutes the soil can be removed sufficiently only by increasing the flow rate of the wash water. Can not do it. By increasing the pressure difference between the inside and outside of the clay mineral by pulsating the washing water under pressure, the inside contaminants are drawn out and the washing effect is greatly improved.
[0030]
Furthermore, by forming a reduced water generation layer at the upper part of the water injection trench and discharging reducing wash water from the lower permeable layer into the soil, hexavalent chromium and other contaminants in the soil are reduced and stabilized. Is done. In addition, by providing a water level measurement hole and controlling the amount of water injected or pumped based on the measured water level, the level of the cleaning water flowing through the contaminated area in the soil can be maintained appropriately, and the cleaning effect can be improved. Furthermore, by providing a horizontal pipe line for discharging pressurized water upward at the lower side of the water injection trench, the downward diffusion of contaminants is suppressed, and a highly reliable purification effect is achieved in the construction area. Also, if a second water injection trench is provided on the side of the water injection trench in a different direction from the water injection trench and the pulsation is amplified by interfering with the pulsation of the cleaning water discharged from both trenches, the total amount of water injection will not increase. The cleaning effect is improved.
[Brief description of the drawings]
1 is a schematic plan view showing an arrangement of a water injection trench and a water pumping trench. FIG. 2 is a schematic longitudinal sectional view of a purification structure shown in FIG. 1. FIG. 3 is an arrangement in which a pressurized water supply pipe line is provided below the water injection trench. FIG. 4 is a schematic plan view showing a configuration example in which a second water injection trench is provided with respect to the water injection trench.
[Explanation of symbols]
10-water shielding wall, 11-water injection trench, 12-pumping trench, 13-water-permeable layer, 14-reduced water generation layer, 15-pumping pump, 16-pouring water line, 17-pouring valve, 18-pumping line, 20-hardly permeable layer, 31, 32-water level measurement hole, 33-water level control unit, 34-pressurized water discharge pipe, 40-second water injection trench.

Claims (6)

A water injection trench and a water pumping trench are provided in the soil, and the washing water is discharged from the wall of the water injection trench into the soil while applying pulsation. A soil remediation method characterized by pumping the washed water from the pumping trench to remove contaminants in the wash water. A water-impervious wall surrounding the contaminated area is provided, a water injection trench is provided upstream of the area surrounded by the water-impervious wall and a pumping trench is provided downstream, and each trench is excavated to a depth that reaches the underground impermeable layer. The outer peripheral wall of each trench is formed by a water-impervious wall, while the upper part of the inner wall of the trench is formed by a water-impervious wall, and the lower part is formed by a water-permeable wall surface. The soil purification method according to claim 1, wherein the cleaning water discharged from the wall surface and flowing through the contaminated area is pumped from the pumping trench and purified. Fill the water injection trench with an upper reduced water generation layer and a lower water transmission layer by filling the water injection material with a water permeable material from the bottom of the water permeable inner wall of the water injection trench to an arbitrary height of the upper impermeable wall, The soil according to claim 1 or 2, wherein the wash water supplied to the upper reduced water generation layer has reducibility and flows down to the lower permeable layer, and the reductive wash water is discharged into the soil. Purification method. The soil purification method according to claim 1, 2 or 3, wherein a water level measurement hole is provided between the water injection trench and the water pumping trench, and the water injection amount or the water supply amount is controlled based on the measured water level. The soil purification method according to any one of claims 1 to 4, wherein a pipe line that discharges pressurized water upward is provided under the water injection trench to prevent diffusion of contaminants downward. The second water injection trench is provided on the side of the water injection trench in a direction different from the water injection trench, and the cleaning effect is enhanced by amplifying the pulsation by interfering with the pulsation of the cleaning water discharged from both trenches. The soil purification method described in any one.

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